cdn-dp-reg.c 21 KB

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  1. // SPDX-License-Identifier: GPL-2.0-only
  2. /*
  3. * Copyright (C) Rockchip Electronics Co., Ltd.
  4. * Author: Chris Zhong <zyw@rock-chips.com>
  5. */
  6. #include <linux/clk.h>
  7. #include <linux/device.h>
  8. #include <linux/delay.h>
  9. #include <linux/io.h>
  10. #include <linux/iopoll.h>
  11. #include <linux/reset.h>
  12. #include <drm/drm_print.h>
  13. #include "cdn-dp-core.h"
  14. #include "cdn-dp-reg.h"
  15. #define CDN_DP_SPDIF_CLK 200000000
  16. #define FW_ALIVE_TIMEOUT_US 1000000
  17. #define MAILBOX_RETRY_US 1000
  18. #define MAILBOX_TIMEOUT_US 5000000
  19. #define LINK_TRAINING_RETRY_MS 20
  20. #define LINK_TRAINING_TIMEOUT_MS 500
  21. void cdn_dp_set_fw_clk(struct cdn_dp_device *dp, unsigned long clk)
  22. {
  23. writel(clk / 1000000, dp->regs + SW_CLK_H);
  24. }
  25. void cdn_dp_clock_reset(struct cdn_dp_device *dp)
  26. {
  27. u32 val;
  28. val = DPTX_FRMR_DATA_CLK_RSTN_EN |
  29. DPTX_FRMR_DATA_CLK_EN |
  30. DPTX_PHY_DATA_RSTN_EN |
  31. DPTX_PHY_DATA_CLK_EN |
  32. DPTX_PHY_CHAR_RSTN_EN |
  33. DPTX_PHY_CHAR_CLK_EN |
  34. SOURCE_AUX_SYS_CLK_RSTN_EN |
  35. SOURCE_AUX_SYS_CLK_EN |
  36. DPTX_SYS_CLK_RSTN_EN |
  37. DPTX_SYS_CLK_EN |
  38. CFG_DPTX_VIF_CLK_RSTN_EN |
  39. CFG_DPTX_VIF_CLK_EN;
  40. writel(val, dp->regs + SOURCE_DPTX_CAR);
  41. val = SOURCE_PHY_RSTN_EN | SOURCE_PHY_CLK_EN;
  42. writel(val, dp->regs + SOURCE_PHY_CAR);
  43. val = SOURCE_PKT_SYS_RSTN_EN |
  44. SOURCE_PKT_SYS_CLK_EN |
  45. SOURCE_PKT_DATA_RSTN_EN |
  46. SOURCE_PKT_DATA_CLK_EN;
  47. writel(val, dp->regs + SOURCE_PKT_CAR);
  48. val = SPDIF_CDR_CLK_RSTN_EN |
  49. SPDIF_CDR_CLK_EN |
  50. SOURCE_AIF_SYS_RSTN_EN |
  51. SOURCE_AIF_SYS_CLK_EN |
  52. SOURCE_AIF_CLK_RSTN_EN |
  53. SOURCE_AIF_CLK_EN;
  54. writel(val, dp->regs + SOURCE_AIF_CAR);
  55. val = SOURCE_CIPHER_SYSTEM_CLK_RSTN_EN |
  56. SOURCE_CIPHER_SYS_CLK_EN |
  57. SOURCE_CIPHER_CHAR_CLK_RSTN_EN |
  58. SOURCE_CIPHER_CHAR_CLK_EN;
  59. writel(val, dp->regs + SOURCE_CIPHER_CAR);
  60. val = SOURCE_CRYPTO_SYS_CLK_RSTN_EN |
  61. SOURCE_CRYPTO_SYS_CLK_EN;
  62. writel(val, dp->regs + SOURCE_CRYPTO_CAR);
  63. /* enable Mailbox and PIF interrupt */
  64. writel(0, dp->regs + APB_INT_MASK);
  65. }
  66. static int cdn_dp_mailbox_read(struct cdn_dp_device *dp)
  67. {
  68. int val, ret;
  69. ret = readx_poll_timeout(readl, dp->regs + MAILBOX_EMPTY_ADDR,
  70. val, !val, MAILBOX_RETRY_US,
  71. MAILBOX_TIMEOUT_US);
  72. if (ret < 0)
  73. return ret;
  74. return readl(dp->regs + MAILBOX0_RD_DATA) & 0xff;
  75. }
  76. static int cdp_dp_mailbox_write(struct cdn_dp_device *dp, u8 val)
  77. {
  78. int ret, full;
  79. ret = readx_poll_timeout(readl, dp->regs + MAILBOX_FULL_ADDR,
  80. full, !full, MAILBOX_RETRY_US,
  81. MAILBOX_TIMEOUT_US);
  82. if (ret < 0)
  83. return ret;
  84. writel(val, dp->regs + MAILBOX0_WR_DATA);
  85. return 0;
  86. }
  87. static int cdn_dp_mailbox_validate_receive(struct cdn_dp_device *dp,
  88. u8 module_id, u8 opcode,
  89. u16 req_size)
  90. {
  91. u32 mbox_size, i;
  92. u8 header[4];
  93. int ret;
  94. /* read the header of the message */
  95. for (i = 0; i < 4; i++) {
  96. ret = cdn_dp_mailbox_read(dp);
  97. if (ret < 0)
  98. return ret;
  99. header[i] = ret;
  100. }
  101. mbox_size = (header[2] << 8) | header[3];
  102. if (opcode != header[0] || module_id != header[1] ||
  103. req_size != mbox_size) {
  104. /*
  105. * If the message in mailbox is not what we want, we need to
  106. * clear the mailbox by reading its contents.
  107. */
  108. for (i = 0; i < mbox_size; i++)
  109. if (cdn_dp_mailbox_read(dp) < 0)
  110. break;
  111. return -EINVAL;
  112. }
  113. return 0;
  114. }
  115. static int cdn_dp_mailbox_read_receive(struct cdn_dp_device *dp,
  116. u8 *buff, u16 buff_size)
  117. {
  118. u32 i;
  119. int ret;
  120. for (i = 0; i < buff_size; i++) {
  121. ret = cdn_dp_mailbox_read(dp);
  122. if (ret < 0)
  123. return ret;
  124. buff[i] = ret;
  125. }
  126. return 0;
  127. }
  128. static int cdn_dp_mailbox_send(struct cdn_dp_device *dp, u8 module_id,
  129. u8 opcode, u16 size, u8 *message)
  130. {
  131. u8 header[4];
  132. int ret, i;
  133. header[0] = opcode;
  134. header[1] = module_id;
  135. header[2] = (size >> 8) & 0xff;
  136. header[3] = size & 0xff;
  137. for (i = 0; i < 4; i++) {
  138. ret = cdp_dp_mailbox_write(dp, header[i]);
  139. if (ret)
  140. return ret;
  141. }
  142. for (i = 0; i < size; i++) {
  143. ret = cdp_dp_mailbox_write(dp, message[i]);
  144. if (ret)
  145. return ret;
  146. }
  147. return 0;
  148. }
  149. static int cdn_dp_reg_write(struct cdn_dp_device *dp, u16 addr, u32 val)
  150. {
  151. u8 msg[6];
  152. msg[0] = (addr >> 8) & 0xff;
  153. msg[1] = addr & 0xff;
  154. msg[2] = (val >> 24) & 0xff;
  155. msg[3] = (val >> 16) & 0xff;
  156. msg[4] = (val >> 8) & 0xff;
  157. msg[5] = val & 0xff;
  158. return cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_WRITE_REGISTER,
  159. sizeof(msg), msg);
  160. }
  161. static int cdn_dp_reg_write_bit(struct cdn_dp_device *dp, u16 addr,
  162. u8 start_bit, u8 bits_no, u32 val)
  163. {
  164. u8 field[8];
  165. field[0] = (addr >> 8) & 0xff;
  166. field[1] = addr & 0xff;
  167. field[2] = start_bit;
  168. field[3] = bits_no;
  169. field[4] = (val >> 24) & 0xff;
  170. field[5] = (val >> 16) & 0xff;
  171. field[6] = (val >> 8) & 0xff;
  172. field[7] = val & 0xff;
  173. return cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_WRITE_FIELD,
  174. sizeof(field), field);
  175. }
  176. int cdn_dp_dpcd_read(struct cdn_dp_device *dp, u32 addr, u8 *data, u16 len)
  177. {
  178. u8 msg[5], reg[5];
  179. int ret;
  180. msg[0] = (len >> 8) & 0xff;
  181. msg[1] = len & 0xff;
  182. msg[2] = (addr >> 16) & 0xff;
  183. msg[3] = (addr >> 8) & 0xff;
  184. msg[4] = addr & 0xff;
  185. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_READ_DPCD,
  186. sizeof(msg), msg);
  187. if (ret)
  188. goto err_dpcd_read;
  189. ret = cdn_dp_mailbox_validate_receive(dp, MB_MODULE_ID_DP_TX,
  190. DPTX_READ_DPCD,
  191. sizeof(reg) + len);
  192. if (ret)
  193. goto err_dpcd_read;
  194. ret = cdn_dp_mailbox_read_receive(dp, reg, sizeof(reg));
  195. if (ret)
  196. goto err_dpcd_read;
  197. ret = cdn_dp_mailbox_read_receive(dp, data, len);
  198. err_dpcd_read:
  199. return ret;
  200. }
  201. int cdn_dp_dpcd_write(struct cdn_dp_device *dp, u32 addr, u8 value)
  202. {
  203. u8 msg[6], reg[5];
  204. int ret;
  205. msg[0] = 0;
  206. msg[1] = 1;
  207. msg[2] = (addr >> 16) & 0xff;
  208. msg[3] = (addr >> 8) & 0xff;
  209. msg[4] = addr & 0xff;
  210. msg[5] = value;
  211. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_WRITE_DPCD,
  212. sizeof(msg), msg);
  213. if (ret)
  214. goto err_dpcd_write;
  215. ret = cdn_dp_mailbox_validate_receive(dp, MB_MODULE_ID_DP_TX,
  216. DPTX_WRITE_DPCD, sizeof(reg));
  217. if (ret)
  218. goto err_dpcd_write;
  219. ret = cdn_dp_mailbox_read_receive(dp, reg, sizeof(reg));
  220. if (ret)
  221. goto err_dpcd_write;
  222. if (addr != (reg[2] << 16 | reg[3] << 8 | reg[4]))
  223. ret = -EINVAL;
  224. err_dpcd_write:
  225. if (ret)
  226. DRM_DEV_ERROR(dp->dev, "dpcd write failed: %d\n", ret);
  227. return ret;
  228. }
  229. int cdn_dp_load_firmware(struct cdn_dp_device *dp, const u32 *i_mem,
  230. u32 i_size, const u32 *d_mem, u32 d_size)
  231. {
  232. u32 reg;
  233. int i, ret;
  234. /* reset ucpu before load firmware*/
  235. writel(APB_IRAM_PATH | APB_DRAM_PATH | APB_XT_RESET,
  236. dp->regs + APB_CTRL);
  237. for (i = 0; i < i_size; i += 4)
  238. writel(*i_mem++, dp->regs + ADDR_IMEM + i);
  239. for (i = 0; i < d_size; i += 4)
  240. writel(*d_mem++, dp->regs + ADDR_DMEM + i);
  241. /* un-reset ucpu */
  242. writel(0, dp->regs + APB_CTRL);
  243. /* check the keep alive register to make sure fw working */
  244. ret = readx_poll_timeout(readl, dp->regs + KEEP_ALIVE,
  245. reg, reg, 2000, FW_ALIVE_TIMEOUT_US);
  246. if (ret < 0) {
  247. DRM_DEV_ERROR(dp->dev, "failed to loaded the FW reg = %x\n",
  248. reg);
  249. return -EINVAL;
  250. }
  251. reg = readl(dp->regs + VER_L) & 0xff;
  252. dp->fw_version = reg;
  253. reg = readl(dp->regs + VER_H) & 0xff;
  254. dp->fw_version |= reg << 8;
  255. reg = readl(dp->regs + VER_LIB_L_ADDR) & 0xff;
  256. dp->fw_version |= reg << 16;
  257. reg = readl(dp->regs + VER_LIB_H_ADDR) & 0xff;
  258. dp->fw_version |= reg << 24;
  259. DRM_DEV_DEBUG(dp->dev, "firmware version: %x\n", dp->fw_version);
  260. return 0;
  261. }
  262. int cdn_dp_set_firmware_active(struct cdn_dp_device *dp, bool enable)
  263. {
  264. u8 msg[5];
  265. int ret, i;
  266. msg[0] = GENERAL_MAIN_CONTROL;
  267. msg[1] = MB_MODULE_ID_GENERAL;
  268. msg[2] = 0;
  269. msg[3] = 1;
  270. msg[4] = enable ? FW_ACTIVE : FW_STANDBY;
  271. for (i = 0; i < sizeof(msg); i++) {
  272. ret = cdp_dp_mailbox_write(dp, msg[i]);
  273. if (ret)
  274. goto err_set_firmware_active;
  275. }
  276. /* read the firmware state */
  277. for (i = 0; i < sizeof(msg); i++) {
  278. ret = cdn_dp_mailbox_read(dp);
  279. if (ret < 0)
  280. goto err_set_firmware_active;
  281. msg[i] = ret;
  282. }
  283. ret = 0;
  284. err_set_firmware_active:
  285. if (ret < 0)
  286. DRM_DEV_ERROR(dp->dev, "set firmware active failed\n");
  287. return ret;
  288. }
  289. int cdn_dp_set_host_cap(struct cdn_dp_device *dp, u8 lanes, bool flip)
  290. {
  291. u8 msg[8];
  292. int ret;
  293. msg[0] = CDN_DP_MAX_LINK_RATE;
  294. msg[1] = lanes | SCRAMBLER_EN;
  295. msg[2] = VOLTAGE_LEVEL_2;
  296. msg[3] = PRE_EMPHASIS_LEVEL_3;
  297. msg[4] = PTS1 | PTS2 | PTS3 | PTS4;
  298. msg[5] = FAST_LT_NOT_SUPPORT;
  299. msg[6] = flip ? LANE_MAPPING_FLIPPED : LANE_MAPPING_NORMAL;
  300. msg[7] = ENHANCED;
  301. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX,
  302. DPTX_SET_HOST_CAPABILITIES,
  303. sizeof(msg), msg);
  304. if (ret)
  305. goto err_set_host_cap;
  306. ret = cdn_dp_reg_write(dp, DP_AUX_SWAP_INVERSION_CONTROL,
  307. AUX_HOST_INVERT);
  308. err_set_host_cap:
  309. if (ret)
  310. DRM_DEV_ERROR(dp->dev, "set host cap failed: %d\n", ret);
  311. return ret;
  312. }
  313. int cdn_dp_event_config(struct cdn_dp_device *dp)
  314. {
  315. u8 msg[5];
  316. int ret;
  317. memset(msg, 0, sizeof(msg));
  318. msg[0] = DPTX_EVENT_ENABLE_HPD | DPTX_EVENT_ENABLE_TRAINING;
  319. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_ENABLE_EVENT,
  320. sizeof(msg), msg);
  321. if (ret)
  322. DRM_DEV_ERROR(dp->dev, "set event config failed: %d\n", ret);
  323. return ret;
  324. }
  325. u32 cdn_dp_get_event(struct cdn_dp_device *dp)
  326. {
  327. return readl(dp->regs + SW_EVENTS0);
  328. }
  329. int cdn_dp_get_hpd_status(struct cdn_dp_device *dp)
  330. {
  331. u8 status;
  332. int ret;
  333. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_HPD_STATE,
  334. 0, NULL);
  335. if (ret)
  336. goto err_get_hpd;
  337. ret = cdn_dp_mailbox_validate_receive(dp, MB_MODULE_ID_DP_TX,
  338. DPTX_HPD_STATE, sizeof(status));
  339. if (ret)
  340. goto err_get_hpd;
  341. ret = cdn_dp_mailbox_read_receive(dp, &status, sizeof(status));
  342. if (ret)
  343. goto err_get_hpd;
  344. return status;
  345. err_get_hpd:
  346. DRM_DEV_ERROR(dp->dev, "get hpd status failed: %d\n", ret);
  347. return ret;
  348. }
  349. int cdn_dp_get_edid_block(void *data, u8 *edid,
  350. unsigned int block, size_t length)
  351. {
  352. struct cdn_dp_device *dp = data;
  353. u8 msg[2], reg[2], i;
  354. int ret;
  355. for (i = 0; i < 4; i++) {
  356. msg[0] = block / 2;
  357. msg[1] = block % 2;
  358. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_GET_EDID,
  359. sizeof(msg), msg);
  360. if (ret)
  361. continue;
  362. ret = cdn_dp_mailbox_validate_receive(dp, MB_MODULE_ID_DP_TX,
  363. DPTX_GET_EDID,
  364. sizeof(reg) + length);
  365. if (ret)
  366. continue;
  367. ret = cdn_dp_mailbox_read_receive(dp, reg, sizeof(reg));
  368. if (ret)
  369. continue;
  370. ret = cdn_dp_mailbox_read_receive(dp, edid, length);
  371. if (ret)
  372. continue;
  373. if (reg[0] == length && reg[1] == block / 2)
  374. break;
  375. }
  376. if (ret)
  377. DRM_DEV_ERROR(dp->dev, "get block[%d] edid failed: %d\n", block,
  378. ret);
  379. return ret;
  380. }
  381. static int cdn_dp_training_start(struct cdn_dp_device *dp)
  382. {
  383. unsigned long timeout;
  384. u8 msg, event[2];
  385. int ret;
  386. msg = LINK_TRAINING_RUN;
  387. /* start training */
  388. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_TRAINING_CONTROL,
  389. sizeof(msg), &msg);
  390. if (ret)
  391. goto err_training_start;
  392. timeout = jiffies + msecs_to_jiffies(LINK_TRAINING_TIMEOUT_MS);
  393. while (time_before(jiffies, timeout)) {
  394. msleep(LINK_TRAINING_RETRY_MS);
  395. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX,
  396. DPTX_READ_EVENT, 0, NULL);
  397. if (ret)
  398. goto err_training_start;
  399. ret = cdn_dp_mailbox_validate_receive(dp, MB_MODULE_ID_DP_TX,
  400. DPTX_READ_EVENT,
  401. sizeof(event));
  402. if (ret)
  403. goto err_training_start;
  404. ret = cdn_dp_mailbox_read_receive(dp, event, sizeof(event));
  405. if (ret)
  406. goto err_training_start;
  407. if (event[1] & EQ_PHASE_FINISHED)
  408. return 0;
  409. }
  410. ret = -ETIMEDOUT;
  411. err_training_start:
  412. DRM_DEV_ERROR(dp->dev, "training failed: %d\n", ret);
  413. return ret;
  414. }
  415. static int cdn_dp_get_training_status(struct cdn_dp_device *dp)
  416. {
  417. u8 status[10];
  418. int ret;
  419. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_READ_LINK_STAT,
  420. 0, NULL);
  421. if (ret)
  422. goto err_get_training_status;
  423. ret = cdn_dp_mailbox_validate_receive(dp, MB_MODULE_ID_DP_TX,
  424. DPTX_READ_LINK_STAT,
  425. sizeof(status));
  426. if (ret)
  427. goto err_get_training_status;
  428. ret = cdn_dp_mailbox_read_receive(dp, status, sizeof(status));
  429. if (ret)
  430. goto err_get_training_status;
  431. dp->max_rate = drm_dp_bw_code_to_link_rate(status[0]);
  432. dp->max_lanes = status[1];
  433. err_get_training_status:
  434. if (ret)
  435. DRM_DEV_ERROR(dp->dev, "get training status failed: %d\n", ret);
  436. return ret;
  437. }
  438. int cdn_dp_train_link(struct cdn_dp_device *dp)
  439. {
  440. int ret;
  441. ret = cdn_dp_training_start(dp);
  442. if (ret) {
  443. DRM_DEV_ERROR(dp->dev, "Failed to start training %d\n", ret);
  444. return ret;
  445. }
  446. ret = cdn_dp_get_training_status(dp);
  447. if (ret) {
  448. DRM_DEV_ERROR(dp->dev, "Failed to get training stat %d\n", ret);
  449. return ret;
  450. }
  451. DRM_DEV_DEBUG_KMS(dp->dev, "rate:0x%x, lanes:%d\n", dp->max_rate,
  452. dp->max_lanes);
  453. return ret;
  454. }
  455. int cdn_dp_set_video_status(struct cdn_dp_device *dp, int active)
  456. {
  457. u8 msg;
  458. int ret;
  459. msg = !!active;
  460. ret = cdn_dp_mailbox_send(dp, MB_MODULE_ID_DP_TX, DPTX_SET_VIDEO,
  461. sizeof(msg), &msg);
  462. if (ret)
  463. DRM_DEV_ERROR(dp->dev, "set video status failed: %d\n", ret);
  464. return ret;
  465. }
  466. static int cdn_dp_get_msa_misc(struct video_info *video,
  467. struct drm_display_mode *mode)
  468. {
  469. u32 msa_misc;
  470. u8 val[2] = {0};
  471. switch (video->color_fmt) {
  472. case PXL_RGB:
  473. case Y_ONLY:
  474. val[0] = 0;
  475. break;
  476. /* set YUV default color space conversion to BT601 */
  477. case YCBCR_4_4_4:
  478. val[0] = 6 + BT_601 * 8;
  479. break;
  480. case YCBCR_4_2_2:
  481. val[0] = 5 + BT_601 * 8;
  482. break;
  483. case YCBCR_4_2_0:
  484. val[0] = 5;
  485. break;
  486. }
  487. switch (video->color_depth) {
  488. case 6:
  489. val[1] = 0;
  490. break;
  491. case 8:
  492. val[1] = 1;
  493. break;
  494. case 10:
  495. val[1] = 2;
  496. break;
  497. case 12:
  498. val[1] = 3;
  499. break;
  500. case 16:
  501. val[1] = 4;
  502. break;
  503. }
  504. msa_misc = 2 * val[0] + 32 * val[1] +
  505. ((video->color_fmt == Y_ONLY) ? (1 << 14) : 0);
  506. return msa_misc;
  507. }
  508. int cdn_dp_config_video(struct cdn_dp_device *dp)
  509. {
  510. struct video_info *video = &dp->video_info;
  511. struct drm_display_mode *mode = &dp->mode;
  512. u64 symbol;
  513. u32 val, link_rate, rem;
  514. u8 bit_per_pix, tu_size_reg = TU_SIZE;
  515. int ret;
  516. bit_per_pix = (video->color_fmt == YCBCR_4_2_2) ?
  517. (video->color_depth * 2) : (video->color_depth * 3);
  518. link_rate = dp->max_rate / 1000;
  519. ret = cdn_dp_reg_write(dp, BND_HSYNC2VSYNC, VIF_BYPASS_INTERLACE);
  520. if (ret)
  521. goto err_config_video;
  522. ret = cdn_dp_reg_write(dp, HSYNC2VSYNC_POL_CTRL, 0);
  523. if (ret)
  524. goto err_config_video;
  525. /*
  526. * get a best tu_size and valid symbol:
  527. * 1. chose Lclk freq(162Mhz, 270Mhz, 540Mhz), set TU to 32
  528. * 2. calculate VS(valid symbol) = TU * Pclk * Bpp / (Lclk * Lanes)
  529. * 3. if VS > *.85 or VS < *.1 or VS < 2 or TU < VS + 4, then set
  530. * TU += 2 and repeat 2nd step.
  531. */
  532. do {
  533. tu_size_reg += 2;
  534. symbol = (u64)tu_size_reg * mode->clock * bit_per_pix;
  535. do_div(symbol, dp->max_lanes * link_rate * 8);
  536. rem = do_div(symbol, 1000);
  537. if (tu_size_reg > 64) {
  538. ret = -EINVAL;
  539. DRM_DEV_ERROR(dp->dev,
  540. "tu error, clk:%d, lanes:%d, rate:%d\n",
  541. mode->clock, dp->max_lanes, link_rate);
  542. goto err_config_video;
  543. }
  544. } while ((symbol <= 1) || (tu_size_reg - symbol < 4) ||
  545. (rem > 850) || (rem < 100));
  546. val = symbol + (tu_size_reg << 8);
  547. val |= TU_CNT_RST_EN;
  548. ret = cdn_dp_reg_write(dp, DP_FRAMER_TU, val);
  549. if (ret)
  550. goto err_config_video;
  551. /* set the FIFO Buffer size */
  552. val = div_u64(mode->clock * (symbol + 1), 1000) + link_rate;
  553. val /= (dp->max_lanes * link_rate);
  554. val = div_u64(8 * (symbol + 1), bit_per_pix) - val;
  555. val += 2;
  556. ret = cdn_dp_reg_write(dp, DP_VC_TABLE(15), val);
  557. switch (video->color_depth) {
  558. case 6:
  559. val = BCS_6;
  560. break;
  561. case 8:
  562. val = BCS_8;
  563. break;
  564. case 10:
  565. val = BCS_10;
  566. break;
  567. case 12:
  568. val = BCS_12;
  569. break;
  570. case 16:
  571. val = BCS_16;
  572. break;
  573. }
  574. val += video->color_fmt << 8;
  575. ret = cdn_dp_reg_write(dp, DP_FRAMER_PXL_REPR, val);
  576. if (ret)
  577. goto err_config_video;
  578. val = video->h_sync_polarity ? DP_FRAMER_SP_HSP : 0;
  579. val |= video->v_sync_polarity ? DP_FRAMER_SP_VSP : 0;
  580. ret = cdn_dp_reg_write(dp, DP_FRAMER_SP, val);
  581. if (ret)
  582. goto err_config_video;
  583. val = (mode->hsync_start - mode->hdisplay) << 16;
  584. val |= mode->htotal - mode->hsync_end;
  585. ret = cdn_dp_reg_write(dp, DP_FRONT_BACK_PORCH, val);
  586. if (ret)
  587. goto err_config_video;
  588. val = mode->hdisplay * bit_per_pix / 8;
  589. ret = cdn_dp_reg_write(dp, DP_BYTE_COUNT, val);
  590. if (ret)
  591. goto err_config_video;
  592. val = mode->htotal | ((mode->htotal - mode->hsync_start) << 16);
  593. ret = cdn_dp_reg_write(dp, MSA_HORIZONTAL_0, val);
  594. if (ret)
  595. goto err_config_video;
  596. val = mode->hsync_end - mode->hsync_start;
  597. val |= (mode->hdisplay << 16) | (video->h_sync_polarity << 15);
  598. ret = cdn_dp_reg_write(dp, MSA_HORIZONTAL_1, val);
  599. if (ret)
  600. goto err_config_video;
  601. val = mode->vtotal;
  602. val |= (mode->vtotal - mode->vsync_start) << 16;
  603. ret = cdn_dp_reg_write(dp, MSA_VERTICAL_0, val);
  604. if (ret)
  605. goto err_config_video;
  606. val = mode->vsync_end - mode->vsync_start;
  607. val |= (mode->vdisplay << 16) | (video->v_sync_polarity << 15);
  608. ret = cdn_dp_reg_write(dp, MSA_VERTICAL_1, val);
  609. if (ret)
  610. goto err_config_video;
  611. val = cdn_dp_get_msa_misc(video, mode);
  612. ret = cdn_dp_reg_write(dp, MSA_MISC, val);
  613. if (ret)
  614. goto err_config_video;
  615. ret = cdn_dp_reg_write(dp, STREAM_CONFIG, 1);
  616. if (ret)
  617. goto err_config_video;
  618. val = mode->hsync_end - mode->hsync_start;
  619. val |= mode->hdisplay << 16;
  620. ret = cdn_dp_reg_write(dp, DP_HORIZONTAL, val);
  621. if (ret)
  622. goto err_config_video;
  623. val = mode->vdisplay;
  624. val |= (mode->vtotal - mode->vsync_start) << 16;
  625. ret = cdn_dp_reg_write(dp, DP_VERTICAL_0, val);
  626. if (ret)
  627. goto err_config_video;
  628. val = mode->vtotal;
  629. ret = cdn_dp_reg_write(dp, DP_VERTICAL_1, val);
  630. if (ret)
  631. goto err_config_video;
  632. ret = cdn_dp_reg_write_bit(dp, DP_VB_ID, 2, 1, 0);
  633. err_config_video:
  634. if (ret)
  635. DRM_DEV_ERROR(dp->dev, "config video failed: %d\n", ret);
  636. return ret;
  637. }
  638. int cdn_dp_audio_stop(struct cdn_dp_device *dp, struct audio_info *audio)
  639. {
  640. int ret;
  641. ret = cdn_dp_reg_write(dp, AUDIO_PACK_CONTROL, 0);
  642. if (ret) {
  643. DRM_DEV_ERROR(dp->dev, "audio stop failed: %d\n", ret);
  644. return ret;
  645. }
  646. writel(0, dp->regs + SPDIF_CTRL_ADDR);
  647. /* clearn the audio config and reset */
  648. writel(0, dp->regs + AUDIO_SRC_CNTL);
  649. writel(0, dp->regs + AUDIO_SRC_CNFG);
  650. writel(AUDIO_SW_RST, dp->regs + AUDIO_SRC_CNTL);
  651. writel(0, dp->regs + AUDIO_SRC_CNTL);
  652. /* reset smpl2pckt component */
  653. writel(0, dp->regs + SMPL2PKT_CNTL);
  654. writel(AUDIO_SW_RST, dp->regs + SMPL2PKT_CNTL);
  655. writel(0, dp->regs + SMPL2PKT_CNTL);
  656. /* reset FIFO */
  657. writel(AUDIO_SW_RST, dp->regs + FIFO_CNTL);
  658. writel(0, dp->regs + FIFO_CNTL);
  659. if (audio->format == AFMT_SPDIF)
  660. clk_disable_unprepare(dp->spdif_clk);
  661. return 0;
  662. }
  663. int cdn_dp_audio_mute(struct cdn_dp_device *dp, bool enable)
  664. {
  665. int ret;
  666. ret = cdn_dp_reg_write_bit(dp, DP_VB_ID, 4, 1, enable);
  667. if (ret)
  668. DRM_DEV_ERROR(dp->dev, "audio mute failed: %d\n", ret);
  669. return ret;
  670. }
  671. static void cdn_dp_audio_config_i2s(struct cdn_dp_device *dp,
  672. struct audio_info *audio)
  673. {
  674. int sub_pckt_num = 1, i2s_port_en_val = 0xf, i;
  675. u32 val;
  676. if (audio->channels == 2) {
  677. if (dp->max_lanes == 1)
  678. sub_pckt_num = 2;
  679. else
  680. sub_pckt_num = 4;
  681. i2s_port_en_val = 1;
  682. } else if (audio->channels == 4) {
  683. i2s_port_en_val = 3;
  684. }
  685. writel(0x0, dp->regs + SPDIF_CTRL_ADDR);
  686. writel(SYNC_WR_TO_CH_ZERO, dp->regs + FIFO_CNTL);
  687. val = MAX_NUM_CH(audio->channels);
  688. val |= NUM_OF_I2S_PORTS(audio->channels);
  689. val |= AUDIO_TYPE_LPCM;
  690. val |= CFG_SUB_PCKT_NUM(sub_pckt_num);
  691. writel(val, dp->regs + SMPL2PKT_CNFG);
  692. if (audio->sample_width == 16)
  693. val = 0;
  694. else if (audio->sample_width == 24)
  695. val = 1 << 9;
  696. else
  697. val = 2 << 9;
  698. val |= AUDIO_CH_NUM(audio->channels);
  699. val |= I2S_DEC_PORT_EN(i2s_port_en_val);
  700. val |= TRANS_SMPL_WIDTH_32;
  701. writel(val, dp->regs + AUDIO_SRC_CNFG);
  702. for (i = 0; i < (audio->channels + 1) / 2; i++) {
  703. if (audio->sample_width == 16)
  704. val = (0x02 << 8) | (0x02 << 20);
  705. else if (audio->sample_width == 24)
  706. val = (0x0b << 8) | (0x0b << 20);
  707. val |= ((2 * i) << 4) | ((2 * i + 1) << 16);
  708. writel(val, dp->regs + STTS_BIT_CH(i));
  709. }
  710. switch (audio->sample_rate) {
  711. case 32000:
  712. val = SAMPLING_FREQ(3) |
  713. ORIGINAL_SAMP_FREQ(0xc);
  714. break;
  715. case 44100:
  716. val = SAMPLING_FREQ(0) |
  717. ORIGINAL_SAMP_FREQ(0xf);
  718. break;
  719. case 48000:
  720. val = SAMPLING_FREQ(2) |
  721. ORIGINAL_SAMP_FREQ(0xd);
  722. break;
  723. case 88200:
  724. val = SAMPLING_FREQ(8) |
  725. ORIGINAL_SAMP_FREQ(0x7);
  726. break;
  727. case 96000:
  728. val = SAMPLING_FREQ(0xa) |
  729. ORIGINAL_SAMP_FREQ(5);
  730. break;
  731. case 176400:
  732. val = SAMPLING_FREQ(0xc) |
  733. ORIGINAL_SAMP_FREQ(3);
  734. break;
  735. case 192000:
  736. val = SAMPLING_FREQ(0xe) |
  737. ORIGINAL_SAMP_FREQ(1);
  738. break;
  739. }
  740. val |= 4;
  741. writel(val, dp->regs + COM_CH_STTS_BITS);
  742. writel(SMPL2PKT_EN, dp->regs + SMPL2PKT_CNTL);
  743. writel(I2S_DEC_START, dp->regs + AUDIO_SRC_CNTL);
  744. }
  745. static void cdn_dp_audio_config_spdif(struct cdn_dp_device *dp)
  746. {
  747. u32 val;
  748. writel(SYNC_WR_TO_CH_ZERO, dp->regs + FIFO_CNTL);
  749. val = MAX_NUM_CH(2) | AUDIO_TYPE_LPCM | CFG_SUB_PCKT_NUM(4);
  750. writel(val, dp->regs + SMPL2PKT_CNFG);
  751. writel(SMPL2PKT_EN, dp->regs + SMPL2PKT_CNTL);
  752. val = SPDIF_ENABLE | SPDIF_AVG_SEL | SPDIF_JITTER_BYPASS;
  753. writel(val, dp->regs + SPDIF_CTRL_ADDR);
  754. clk_prepare_enable(dp->spdif_clk);
  755. clk_set_rate(dp->spdif_clk, CDN_DP_SPDIF_CLK);
  756. }
  757. int cdn_dp_audio_config(struct cdn_dp_device *dp, struct audio_info *audio)
  758. {
  759. int ret;
  760. /* reset the spdif clk before config */
  761. if (audio->format == AFMT_SPDIF) {
  762. reset_control_assert(dp->spdif_rst);
  763. reset_control_deassert(dp->spdif_rst);
  764. }
  765. ret = cdn_dp_reg_write(dp, CM_LANE_CTRL, LANE_REF_CYC);
  766. if (ret)
  767. goto err_audio_config;
  768. ret = cdn_dp_reg_write(dp, CM_CTRL, 0);
  769. if (ret)
  770. goto err_audio_config;
  771. if (audio->format == AFMT_I2S)
  772. cdn_dp_audio_config_i2s(dp, audio);
  773. else if (audio->format == AFMT_SPDIF)
  774. cdn_dp_audio_config_spdif(dp);
  775. ret = cdn_dp_reg_write(dp, AUDIO_PACK_CONTROL, AUDIO_PACK_EN);
  776. err_audio_config:
  777. if (ret)
  778. DRM_DEV_ERROR(dp->dev, "audio config failed: %d\n", ret);
  779. return ret;
  780. }